Prior research conceptualised action understanding primarily as a kinematic matching of observed actions to own motor representations but has ignored the role of object information. The current study utilized fMRI to identify (a) regions uniquely involved in encoding the goal of others' actions, and (b) to test whether these goal understanding processes draw more strongly on regions involved in encoding object semantics or movement kinematics. Participants watched sequences of instrumental actions while attending to either the actions' goal (goal task), the movements performed (movement task) or the objects used (object task). The results confirmed, first, a unique role of the inferior frontal gyrus, middle temporal gyrus and medial frontal...
Because we are a cooperative species, understanding the goals and intentions of others is critical f...
Consistent evidence suggests that the way we reach and grasp an object is modulated not only by obje...
Perception for action and object recognition are traditionally assumed to depend on distinct brain a...
Action recognition involves not only the readout of body movements and involved objects but also the...
Observing other people’s actions activates a network of brain regions that is also activated during ...
Item does not contain fulltextThis fMRI study investigates the neural mechanisms supporting the retr...
Actions performed by others are mostly not observed in isolation, but embedded in sequences of actio...
Objects are reminiscent of actions often performed with them: knife and apple remind us on peeling t...
To interact effectively with our environment, we need to specify the intended outcomes (goals) of ou...
Actions performed by others are mostly not observed in isolation, but embedded in sequences of actio...
Understanding complex movements and abstract action goals is an important skill for our social inter...
When we observe other people's actions, a network of temporal, parietal and frontal regions is recru...
There is considerable evidence that there are anatomically and functionally distinct pathways for ac...
There is considerable evidence that there are anatomically and functionally distinct pathways for ac...
Action semantics enables us to plan actions with objects and to predict others' object-directed acti...
Because we are a cooperative species, understanding the goals and intentions of others is critical f...
Consistent evidence suggests that the way we reach and grasp an object is modulated not only by obje...
Perception for action and object recognition are traditionally assumed to depend on distinct brain a...
Action recognition involves not only the readout of body movements and involved objects but also the...
Observing other people’s actions activates a network of brain regions that is also activated during ...
Item does not contain fulltextThis fMRI study investigates the neural mechanisms supporting the retr...
Actions performed by others are mostly not observed in isolation, but embedded in sequences of actio...
Objects are reminiscent of actions often performed with them: knife and apple remind us on peeling t...
To interact effectively with our environment, we need to specify the intended outcomes (goals) of ou...
Actions performed by others are mostly not observed in isolation, but embedded in sequences of actio...
Understanding complex movements and abstract action goals is an important skill for our social inter...
When we observe other people's actions, a network of temporal, parietal and frontal regions is recru...
There is considerable evidence that there are anatomically and functionally distinct pathways for ac...
There is considerable evidence that there are anatomically and functionally distinct pathways for ac...
Action semantics enables us to plan actions with objects and to predict others' object-directed acti...
Because we are a cooperative species, understanding the goals and intentions of others is critical f...
Consistent evidence suggests that the way we reach and grasp an object is modulated not only by obje...
Perception for action and object recognition are traditionally assumed to depend on distinct brain a...